A vehicle lamp includes a light source, a front cover made of a transparent material to transmit light emitted by the light source, a lamp body forming a lamp housing together with the front cover, and a vibrator configured to vibrate the front cover to generate a vibration sound. The vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp.
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11. A vehicle lamp comprising:
a light source;
a front cover made of a transparent material to transmit light emitted by the light source;
a lamp body forming a lamp housing together with the front cover; and
a vibrator configured to vibrate the front cover to generate a vibration sound,
wherein the vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp, and
wherein one of the front cover and the vibrator comprises a protrusion, and the front cover and the vibrator are in contact with each other at the protrusion.
1. A vehicle lamp comprising:
a light source;
a front cover made of a transparent material to transmit the light emitted by the light source;
a lamp body forming a lamp housing together with the front cover; and
a vibrator directly contacted with the front cover to generate a vibration sound,
wherein the vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp,
wherein the front cover comprises a flat extended portion, and the vibrator is provided on the extended portion, and
wherein the front cover, including the extended portion, is formed as a one-piece structure.
12. A vehicle lamp comprising:
a light source;
a front cover made of a transparent material to transmit light emitted by the light source;
a lamp body forming a lamp housing together with the front cover; and
a vibrator configured to vibrate the front cover to generate a vibration sound,
wherein the vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp,
wherein the vehicle lamp further comprises a resilient member via which the vibrator is supported on the lamp body, and
wherein the vibrator elastically contacts an inner surface of the front cover by an elastic force of the resilient member.
9. A vehicle lamp comprising:
a light source;
a front cover made of a transparent material to transmit light emitted by the light source;
a lamp body forming a lamp housing together with the front cover; and
a vibrator configured to vibrate the front cover to generate a vibration sound,
wherein the vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp, and
wherein the front cover comprises a fastening seat provided on a curved inner surface of the front cover, wherein the fastening seat is a portion of a one-piece structure of the front cover, and the fastening seat comprises a flat surface on which the vibrator is provided.
3. The vehicle lamp according to
4. The vehicle lamp according to
a reflector that reflects light emitted by the light source in a forward direction,
wherein the vibrator is positioned further in the forward direction than the reflector.
5. The vehicle lamp according to
6. The vehicle lamp according to
7. The vehicle lamp according to
10. The vehicle lamp according to
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The present application claims priority from Japanese Patent Application No. 2011-191262 filed on Sep. 2, 2011 and Japanese Patent Application No. 2012-108985 filed on May 11, 2012, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to a vehicle lamp that can sound an alarm to other vehicles and pedestrians.
2. Related Art
In motor driven vehicles, such as hybrid vehicles and electric vehicles, a motor is quiet at low speed so that it is difficult to be perceived by other vehicles and pedestrians. To address this problem, there has been proposed to generate a pseudo engine sound separately from the motor sound and to alert other vehicles and pedestrians using the pseudo engine sound. For example, a related art vehicle lamp is configured such that a vibrator is provided on a headlight cover to vibrate the headlight cover, so that the headlight cover functions as a speaker (see, e.g., JP 2007-283809 A).
The vibrator is arranged at a position where the vibrator does not block a part of irradiation light emitted by a light source of the headlight and traveling through the headlight cover. However, the vibrator may be visible through the headlight cover when the headlight is viewed from the outside, in which case the external appearance of the headlight is deteriorated. Moreover, in the case of a headlight having a structure in which the headlight cover is fixed to the headlight body in a hermetically sealed manner, attachment of the vibrator to the inner side of the headlight cover requires cumbersome steps during assembly. Further, because it is difficult to take the vibrator out of the headlight, it is disadvantageous in terms of maintenance.
One or more embodiments of the present invention provide a vehicle lamp configured to generate a sound by vibrating the lamp without deteriorating the external appearance of the lamp.
According to one or more embodiments of the present invention, a vehicle lamp includes a light source, a front cover made of a transparent material to transmit light emitted by the light source, a lamp body forming a lamp housing together with the front cover, and a vibrator configured to vibrate the front cover to generate a vibration sound. The vibrator is supported by the lamp housing such that the vibrator contacts the front cover at a location where, when the vehicle lamp is mounted on a vehicle, the vibrator is not visible from an outside of the vehicle lamp.
Other aspects and advantages of the invention will be apparent from the following description, the drawings and the claims.
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In embodiments of the invention, numerous specific details are set forth in order to provide a more thorough understanding of the invention. However, it will be apparent to one of ordinary skill in the art that the invention may be practiced without these specific details. In other instances, well-known features have not been described in detail to avoid obscuring the invention.
The lower portion of the front cover 12 is extended down to the bottom of the lamp housing 1 so that it is not visible when the headlamp HL is viewed from the outside. That is, as illustrated in
As shown in
When alternate current is applied to the drive coil 32 through the harness H3, the magnet 35 vibrates in the axial direction of the cylindrical core 31a by an alternating magnetic field generated by the drive coil 32 and a magnetic field of the magnet 35. The vibrating plate 34, to which the magnet 35 is attached, is vibrated accordingly in its thickness direction while flexing the spring plate 33. The vibration of the magnet 35 and the vibrating plate 34 is transmitted to the body 31.
When the electromagnetic vibrator 3 is driven by the sounding controller 51 of the lamp control unit 5, the magnet 35 and the vibrating plate 34 vibrate together, and this vibration is transmitted to the body 31. The vibration is further transmitted to substantially the entire portion of the front cover 12 from the extended portion 14, whereby the front cover 12 is vibrated to generate an alarm sound. When the headlamp HL is observed from the outside, the electromagnetic vibrator 3 is not visible through the front cover 12 because it is covered and concealed by the extension 13 and the bumper BP. Accordingly, the external appearance of the headlamp HL is not deteriorated by the vibrator 3. The location of the electromagnetic vibrator 3 is outside the optical path of the light from the lamp unit 2, so that the electromagnetic vibrator 3 does not affect the light distribution from the headlamp HL. Moreover, the extended portion 14 of the front cover 12, to which the electromagnetic vibrator 3 is fixed, is disposed outside of the lamp housing 1. Therefore, the electromagnetic vibrator 3 can be easily attached to or detached from the front cover 12. Accordingly, the electromagnetic vibrator 3 is easy to attach and to maintain.
In the configuration according to the first embodiment, the extended portion 14 of the front cover 12 is extended to the outside of the lamp housing 1 and the electromagnetic vibrator 3 for attachment of the extended portion 14. However, the electromagnetic vibrator 3 may be provided inside the lamp housing 1. For example, as shown in
According to the second embodiment, when the electromagnetic vibrator 3 is driven, the vibration of the magnet 35 and the vibrating plate 34 transmitted to substantially the entire portion of the front cover 12 via the body 31 and the extended portion 14, so that an alarm sound is generated. The vibration of the electromagnetic vibrator 3 is also transmitted to the lamp body 11 via the back cover 111 to generate an alarm sound. That is, substantially the entire headlamp HL is vibrated, so that a higher level of sound is generated. When the headlamp HL is observed from the outside, the electromagnetic vibrator 3 is not visible from the outside through the front cover 12, because it is concealed by the extension 13 and the bumper BP. Accordingly, the external appearance of the headlamp HL is not deteriorated. Further, because the electromagnetic vibrator 3 is mounted on the back cover 111, which is detachably attached to the lamp body 11, the electromagnetic vibrator 3 can be easily attached to or detached from the lamp housing 1. Accordingly, the electromagnetic vibrator 3 is easy to attach and to maintain. Furthermore, because the electromagnetic vibrator 3 is provided inside the lamp housing 1, it is advantageous in that waterproofness of the electromagnetic vibrator 3 is significantly improved.
According to a third embodiment illustrated in
Alternatively, as shown in a fourth embodiment of
According to the second, third, and fourth embodiments described above, only the electromagnetic vibrator 3 is supported on the back cover 111. However, as shown in
The electromagnetic vibrator 3 according to this example has almost the same structure as the electromagnetic vibrators 3 of the first to fourth embodiments. However, the electromagnetic vibrator 3 of this example includes a hollow cylindrical magnet 35, and a vibrating plate 34 having a screw insertion hole 34a concentric with a center hole 35a of the magnet 35. The tabs 36 illustrated in the first to fourth embodiments are not provided. A screw 43 (an example of a fastener) is inserted into the screw insertion hole 34a, and is screwed into the screw hole 153 of the top surfaces of the cross-shaped walls 151 after passing through a fastening hole 31c of the body 31, so that the electromagnetic vibrator 3 is fixed to the fastening seat 15 by the screw 43. Further, a rotation preventing protrusion 31b formed on a portion of the front surface of the body 31 of the electromagnetic vibrator 3 is fitted into the rotation preventing hole 154 of the wall 151, so that the electromagnetic vibrator 3 is not rotated.
According to the fifth embodiment, the electromagnetic vibrator 3 is fixed to the curved inner surface of the front cover 12, but the electromagnetic vibrator 3 and the front cover 12 firmly contact with each other by the fastening seat 15. Accordingly, the vibration of the electromagnetic vibrator 3 is efficiently transmitted to the front cover 12 to increase a sounding effect. Further, the electromagnetic vibrator 3 is fastened to the fastening seat 15 by one screw 43 inserted into the opening of the electromagnetic vibrator 3, i.e., the center hole 35a of the magnet, the screw insertion hole 34a, and the fastening hole 31c. Thus, cost reduction is achieved by improving the work for fixing the electromagnetic vibrator 3 and by reducing the number of components. Furthermore, as shown in
Instead of inserting the screw 43 through the magnet of the electromagnetic vibrator 3, a recessed hole 17 may be formed toward the top surface of the fastening seat 15 from the front surface side of the front cover 12 as shown in
It is advantageous to use a screw 43, 44 made of the same material as the front cover 12 or a material similar to the material of the front cover 12. For example, the front cover 12 and the screw 43, 44 may both be made of polycarbonate. In this way, the screw 43, 44 and the front cover 12 have the same resonant frequency, so that the efficiency of the transmission of vibration from the electromagnetic vibrator 3 to the front cover 12 is increased.
In embodiments described above, the electromagnetic vibrator 3 is brought into firm surface contact with the inner surface of the front cover 12. However, in so far as the vibration of the electromagnetic vibrator 3 is effectively transmitted to the front cover 12, only a portion of the electromagnetic vibrator may be brought into contact with the front cover. A sixth embodiment is such an example. As shown in
As shown in a cross-sectional view of
Depending on the curvature of the inner surface of the front cover 12 or an angle of an inclined portion of the inner surface of the front cover 12, the protrusions 16 may be formed to have different heights so as to correspond to the condition of the inner surface. Further, the number of the protrusions 16 does not necessarily need to be three, and may be two or one. In any case, even when the electromagnetic vibrator 3 is arranged in an inclined manner, the electromagnetic vibrator 3 and the front cover 12 can be reliably brought into contact with each other at the protrusions 16. In addition, the protrusions 16 are provided at locations where the amplitude of vibration of the body 31 of the electromagnetic vibrator 3 is large. Thus, it is possible to effectively transmit the vibration of the electromagnetic vibrator 3 to the front cover 12 and to increase the sounding effect of the front cover 12, as compared to a case where only one side of the body 31 of the electromagnetic vibrator 3 contacts the inner surface of the front cover 12.
As shown in
When the front cover 12 is mounted on the lamp body 11 as shown in
In the seventh embodiment, if an extended portion cannot be formed on the front cover 12 at the position where an elastic contact can be made with the electromagnetic vibrator 3, and the inner surface of the front cover 12 is curved, a fastening seat 15 having a flat top surface may be provided integrally with the front cover 12 as in the fifth embodiment so that the electromagnetic vibrator 3 can elastically contact the fastening seat 15. Alternatively, like in the sixth embodiment, one to three protrusions 16, 16A may be formed on the surface of the body 31 of the electromagnetic vibrator 3 or the inner surface of the front cover 12, so that the surface of the electromagnetic vibrator 3 elastically contacts the inner surface of the front cover 12 at the protrusions. In any case, even when the inner surface of the front cover 12 is curved, it is possible to make the surface of the electromagnetic vibrator 3 reliably contact the inner surface of the front cover 12 to generate a sound by effectively vibrating the front cover 12.
According to one or more embodiments, the transparent front cover may be a lens that refracts light emitted by the light source.
While the invention has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.
Takahashi, Toru, Sugimoto, Atsushi, Sugiyama, Yuji, Tatara, Naoki
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Aug 28 2012 | TATARA, NAOKI | KOITO MANUFACTURING CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 028924 | /0400 | |
Aug 28 2012 | TAKAHASHI, TORU | KOITO MANUFACTURING CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 028924 | /0400 | |
Aug 28 2012 | SUGIYAMA, YUJI | KOITO MANUFACTURING CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 028924 | /0400 | |
Aug 28 2012 | SUGIMOTO, ATSUSHI | KOITO MANUFACTURING CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 028924 | /0400 | |
Sep 04 2012 | Koito Manufacturing Co., Ltd. | (assignment on the face of the patent) | / |
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